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Lasers in Dermatology

»	What does the term “laser” stand for?
»	What does “stimulated emission of radiation” mean?
»	How is the light amplified in the laser system?
»	What types of medium are used in laser systems?
»	What are the special features of laser light?
»	Why is monochromatic light useful?
»	What is selective photothermolysis?
»	What is an ablative laser?
»	What is a nonablative laser?
»	What is Q-switching?
»	What is a fractional laser?
»	How are the types of dermatologic lasers classified?
»	What lasers have historic interest but are seldom used?
»	What are the basic features of the carbon dioxide (CO₂) laser?
»	What are some uses for the standard carbon dioxide laser?
»	How is the CO₂ laser used for resurfacing?
»	What precautions must be used with the CO₂ laser?
»	What are the basic features of the erbium:YAG laser?
»	What are pulsed dye lasers?
»	What is the flashlamp pulsed dye vascular lesion laser used to treat?
»	What is nonablative resurfacing and how does a pulsed dye laser accomplish this?
»	What are the disadvantages of the pulsed dye laser?
»	What is an Nd:YAG laser?
»	How are the long-pulsed Nd:YAG (1064-nm) lasers used?
»	How are the long-pulsed KTP lasers used?
»	How are the Q-switched Nd:YAG lasers used?
»	What is the alexandrite laser?
»	How are the alexandrite lasers used?
»	What is the ruby laser?
»	How are the ruby lasers used?
»	What is a diode laser?
»	How are the diode lasers used?
»	What are nonablative fractional lasers, and for what are they used?
»	What are ablative fractional lasers, and how are they used?
»	What is an intense pulse light machine?
»	What are IPL machines used to treat?
»	Are there any risks for IPL use?
»	What is radiofrequency resurfacing?
»	Are there any risks with radiofrequency treatments?
»	What new technologies will soon be available?

What does “stimulated emission of radiation” mean?

Stimulated emission is a complicated phenomenon of physics, first described by Albert Einstein. Atoms must be in an excited state (an electron is in an elevated orbit). Normally, adding a photon with energy equal to the energy between orbits would raise this electron to a higher orbit. Instead, in special circumstances found in laser systems, two photons are released from the atom, and the electron returns to its lower, resting state. These two photons are then able to enter two other atoms with excited electrons, allowing rapid multiplication of photons in a process similar to a chain reaction. This process accounts for the stimulated emission of radiation used in the acronym laser.